Company Filing History:
Years Active: 2022
Title: Innovator Spotlight: Xiao Hu and Her Pioneering Patent in Optical Technology
Introduction:
Xiao Hu is a talented inventor based in Cupertino, California, known for her innovative contributions to the field of optical technology. With a focus on precision and efficiency, Hu has made significant strides in the capability and functionality of optical modules. Her groundbreaking work has culminated in the acquisition of a patent that showcases her ingenuity and technical skill.
Latest Patents:
Xiao Hu holds a patent for a "Mini-interconnect capacitor," which introduces an impressive optical module design. This invention features an enclosure with an optical output assembly and an emitter designed to emit a focused beam of light. The patented technology includes a specialized connector with two conductive layers and a dielectric layer, ensuring secure connectivity between the module components. Additionally, this design incorporates control circuitry capable of sensing capacitance changes within a test circuit, thereby providing enhanced operational safety by inhibiting the emitter when thresholds are exceeded.
Career Highlights:
Hu's career is marked by her association with Apple Inc., a leader in technology and innovation. Her work at Apple has allowed her to collaborate with some of the brightest minds in the industry, driving forward the company's commitment to cutting-edge technology.
Collaborations:
Within Apple Inc., Xiao Hu has worked alongside colleagues Christopher Hu and Ahmed Rashid. Together, they have combined their expertise to foster a collaborative environment that encourages innovative thinking and the development of industry-leading technology.
Conclusion:
Xiao Hu's contributions to optical technology exemplify the spirit of innovation that drives progress in the tech industry. Her patent for the mini-interconnect capacitor not only reflects her technical prowess but also reinforces her status as a notable inventor. As she continues her journey, the impact of her work will likely resonate throughout the field, inspiring future innovations.